Sunflower (Helianthus annuus) is an important crop species of the Asteraceae family. Recent
characterization of sunflower repetitive fraction has shown that the genome of this species contains
a very large proportion of transposable elements, especially long-terminal-repeat retrotransposons.
However, knowledge on the retrotransposon-related variability within this species is still limited.
We used next generation sequencing technologies to perform a quantitative and qualitative survey
of intraspecific variation of the retrotransposon fraction of the genome across different genotypes of
H. annuus. First, we characterized the repetitive component of a sunflower homozygous
experimental line, using 454 reads, and prepared a library of retrotransposon-related sequences.
Then, we analysed the retrotransposon fraction of 7 wild accessions and 8 cultivars of H. annuus by
mapping Illumina reads of the 15 genotypes onto the library. We observed large variations in
redundancy among genotypes, at both superfamily and family levels. In another analysis, we
mapped Illumina paired reads of the 15 genotypes onto two sets of sequences, i.e. retrotransposons
and protein-encoding sequences, and evaluated the extent of retrotransposon proximity to genes in
the 15 genomes by counting the number of paired reads of which one mapped onto a
retrotransposon and the other onto a gene. Large variability among genotypes was ascertained also
for retrotransposon proximity to genes. Both retrotransposon redundancy and proximity to genes
showed different behaviour among retrotransposon families and also between cultivated and wild
genotypes, indicating a possible involvement in sunflower domestication